| 97 - 97 |
A message from the Associate Editor
Pitz-Paal R |
| 98 - 108 |
An update on solar central receiver systems, projects, and technologies
Romero M, Buck R, Pacheco JE |
| 109 - 125 |
Advances in parabolic trough solar power technology
Price H, Lupfert E, Kearney D, Zarza E, Cohen G, Gee R, Mahoney R |
| 126 - 133 |
The DISS project: Direct steam generation in parabolic trough systems. Operation and maintenance experience and update on project status
Zarza E, Valenzuela L, Leon J, Weyers HD, Eickhoff M, Eck M, Hennecke K |
| 134 - 139 |
Direct steam generation in parabolic troughs: First results of the DISS project
Eck M, Steinmann WD |
| 140 - 144 |
DSG under two-phase and stratified flow in a steel receiver of a parabolic trough collector
Almanza R, Jimenez G, Lentz A, Valdes A, Soria A |
| 145 - 152 |
Survey of thermal energy storage for parabolic trough power plants
Herrmann U, Kearney DW |
| 153 - 159 |
Development of a molten-salt thermocline thermal storage system for parabolic trough plants
Pacheco JE, Showalter SK, Kolb WJ |
| 160 - 164 |
Influence of direct normal irradiance variation on the optimal parabolic trough field size: A problem solved with technical and economical simulations
Quaschning V, Kistner R, Ortmanns W |
| 165 - 169 |
The role of "Allowable flux density" in the design and operation of molten-salt solar central receivers
Vant-Hull LL |
| 170 - 175 |
Development of a high-temperature long-shafted, molten-salt pump for power tower applications
Barth DL, Pacheco JE, Kolb WJ, Rush EE |
| 176 - 181 |
Hybrid Dish/Stirling systems: Combustor and heat pipe receiver development
Laing D, Palsson M |
| 182 - 188 |
Beam characterization and improvement with a flux mapping system for dish concentrators
Ulmer S, Reinalter W, Heller P, Lupfert E, Martinez D |
| 189 - 197 |
Thermal integral micro-generation systems for solar and conventional use
Kribus A |
| 198 - 204 |
Representative terrestrial solar brightness profiles
Neumann A, Witzke A, Jones SA, Schmitt G |
